This course will examine ideal gas mixtures and psychrometric applications, exergy, vapor power systems and gas power systems.
Upon successful completion of the course, students will be able to;
apply exergy balances to closed systems and to control volumes at steady state.
develop and analyze thermodynamic models of vapor power plants based on the Rankine cycle and its modifications.
conduct air-standard analyses of gas turbine power plants based on the Brayton cycle and its modifications.
demonstrate understanding of psychrometric terminology, including humidity ratio, relative humidity, and dew point temperature.
use the psychrometric chart to represent common air-conditioning processes and to retrieve data.
Face to Face
Prerequisite(s) : ESEN 213 or ME 241
Restriction : ESEN 381 or ME 242
Theoretical lectures(Lecture), Study time for Theoretical Lectures (Lecture), Study time for In-class practice (Class), Midterm(s), Study time for midterm(s), Final exam, Study time for final exam
Requires consent of instructor for non-departmental students
Attendance is mandatory for 70% of theoretical and practical classes.
1. have an adequate knowledge of mathematics, sciences and energy systems engineering discipline; apply theoretical and practical knowledge in these fields to the complex engineering problems.
2. identify, define, formulate and solve complex energy systems engineering problems; choose and apply the best analysis and modeling methods for that purpose.
3. design a complex system, process, device or product to meet desired needs within the realistic constraints and conditions; apply modern design methods for that purpose.
4. develop, choose and use the modern techniques and tools required to analyze and solve the complex problems in practice; use information technologies effectively.
5. design and conduct an experiment, acquire data, analyze and interpret results to investigate engineering problems and research topics specific to different disciplines of energy.
6. conduct an advanced study including energy systems individiually; function effectively in interdisciplinary teams.
7. communicate effectively in Turkish both oral and written; have fluency in at least one foreign language; write a report and understand reports; make presentation; give and receive instructions.
Any test, assignment, paper, or report submitted by you and that has your name on it is presumed to be your own original work that has not previously been submitted for credit in another course or has not been written partially or completely by another person. In all of your assignments, you may use words or ideas written by other individuals in publications, web sites, or other sources, but only with proper attribution as explained in your course. If you are not clear about the expectations for completing an assignment or taking a test or examination, be sure to seek clarification from your instructor. Finally, you should keep in mind that as a member of the campus community, you are expected to demonstrate integrity in all of your academic endeavors and will be evaluated on your own merits.. The consequences of cheating and academic dishonesty is a formal discipline punishment as regulated by the Turkish Higher Educational Council.
Educational Support for Disabled Students
If you have a disability for which you are or may be requesting an accommodation, you are encouraged to contact both your instructor and Bilgi Accessible Education Unit as early as possible in the term. Bilgi Accessible Education Unit will verify your disability and determine reasonable accommodations for this course. For more information, visit http://step.bilgi.edu.tr/en/ogrenci-destek-merkezi/bilgi-accessible-education-unit/
